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  • Genome assembly using Galaxy

    2 - 3 August 2017

    Australia

    Genome assembly using Galaxy https://tess.elixir-europe.org/events/genome-assembly-using-galaxy 2017-08-02 09:00:00 UTC 2017-08-03 12:30:00 UTC QFAB Bioinformatics Room 3.141, Queensland Bioscience Precinct, The University of Queensland, Australia Room 3.141, Queensland Bioscience Precinct, The University of Queensland Brisbane Australia Bioinformatics University of Queensland [] [] workshops_and_courses [] Genome AssemblyGalaxy
  • Introduction to long-read genome assembly

    22 March 2018

    Carlton, Australia

    Introduction to long-read genome assembly https://tess.elixir-europe.org/events/introduction-to-long-read-genome-assembly 2018-03-22 13:30:00 UTC 2018-03-22 16:30:00 UTC Melbourne Bioinformatics Melbourne Bioinformatics, 187 Grattan St, Carlton, Australia Melbourne Bioinformatics, 187 Grattan St Carlton Australia 3053 Bioinformatics University of Melbourne [] [] workshops_and_courses [] Genome Assembly
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    30 April - 1 July 2018

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance # Overview * **Duration**: 3 weeks, 3 hours per week * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits) * **Start Date**: The course is run ‘live’ for 3 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### Course start dates This course is repeated twice a year. Next start dates: * 29 October 2018 * April 2019 (exact date TBC) ### ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2018-04-30 09:00:00 UTC 2018-07-01 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    11 June - 7 September 2018

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course is repeated twice a year. Next start dates: * December 2018 (date TBC) * June 2019 (date TBC) ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2018-06-11 09:00:00 UTC 2018-09-07 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • Docker Advanced Course

    26 - 27 September 2018

    Milano, Italy

    Docker Advanced Course https://tess.elixir-europe.org/events/docker-advanced-course Docker is used to run “containers” that are essentially lightweight virtual machines. Containers are isolated from each other and use their own set of tools and libraries; they can communicate through well-defined channels. This allows to easily deploy programs since all requisites of a program are stored inside the containers. This course will provide the basic notions and tool to allow a developer to “dockerize” her programs, and to manage a set of containers, hence greatly improving the installation process. 2018-09-26 09:00:00 UTC 2018-09-27 18:00:00 UTC Gianluca Della Vedova (Department of Computer Science, University of Milano-Bicocca, IT), Loredana Le Pera (ELIXIR-IIB Training Coordinator Deputy, IBIOM-CNR, IT), Allegra Via (ELIXIR-IIB Training Coordinator, IBPM-CNR, IT) Via Bicocca degli Arcimboldi, 8, Lab. 715, U7 Building, Milano, Italy Via Bicocca degli Arcimboldi, 8, Lab. 715, U7 Building Milano Città Metropolitana di Milano Italy 20126 Computer science Bioinformatics University of Milano-Bicocca, Italy gianluca.dellavedova@unimib.it [] DevelopersDevOps in any field 20 workshops_and_courses first_come_first_servedregistration_of_interest DockerContainersVirtual machine
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    29 October - 30 December 2018

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance-5dcaec72-97fb-4389-a804-49b94d51f3cc # Overview * **Duration**: 3 weeks, 3 hours per week * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits) * **Start Date**: The course is run ‘live’ for 3 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### Course start dates This course is repeated twice a year. Next start dates: * 29 October 2018 * April 2019 (exact date TBC) ### ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2018-10-29 09:00:00 UTC 2018-12-30 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    26 November 2018 - 20 January 2019

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics-6bbd442a-5f71-47c9-b144-a6148a92cc56 # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course will be repeated: Next start dates: * September 2019 (date TBC) ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2018-11-26 09:00:00 UTC 2019-01-20 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    26 November 2018 - 20 January 2019

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics-d721b62f-786e-4b31-8f96-6eed015dc319 # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course will be repeated: Next start dates: * May/June 2019 (date TBC) ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2018-11-26 09:00:00 UTC 2019-01-20 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    13 May - 14 July 2019

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance-23eea90b-d4a6-4138-95c2-07152d1241d3 # Overview * **Duration**: 3 weeks, 3 hours per week * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits) * **Start Date**: The course is run ‘live’ for 3 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### Course start dates This course is repeated twice a year. ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2019-05-13 09:00:00 UTC 2019-07-14 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Docker and Reproducibility

    13 - 14 June 2019

    Torino, Italy

    Docker and Reproducibility https://tess.elixir-europe.org/events/docker-and-reproducibility Docker is a container framework for Linux that allows a developer to make easier the creation, deployment and execution of applications by using containers. During the workshop the participant will learn the core concepts of Docker and how to easily embed bioinformatic pipelines/workflows into a docker container. By the end of this course, the participants will learn: - the basic concepts of Docker; - to assess the advantages of a containerized software development & deployment; - to use Docker engine features necessary for running containerized applications; - how to use the Docker File and Docker Hub to create a Docker image; - the various networking mechanisms available in Docker. 2019-06-13 09:00:00 UTC 2019-06-14 18:00:00 UTC ELIXIR-IIB, CNR, University of Turin University of Turin, Molecular Biotechnology Center, Torino, Italy University of Turin, Molecular Biotechnology Center Torino Città Metropolitana di Torino Italy 10126 Bioinformatics Computer science University of Turin elixir.ita.training@gmail.com [] bioinformaticiansBiologists, Genomicists, Computer ScientistsPhD and graduate students, young researchers and PIs in the life science and computational biology field 15 workshops_and_courses first_come_first_served DockerContainersReproducibilitycomputer-science
  • Introduction to Python for Biologists

    12 - 16 August 2019

    Liverpool, United Kingdom

    Introduction to Python for Biologists https://tess.elixir-europe.org/events/introduction-to-python-for-biologists-965f36b3-e040-43cd-bb06-f4e5e3cc588e Registration fee: £500 Places: 15 (first come, first served) Application deadline: 14th June 2019 DESCRIPTION Python is a dynamic, readable language that is a popular platform for all types of bioinformatics work, from simple one-off scripts to large, complex software projects. This workshop is aimed at complete beginners and assumes no prior programming experience. It gives an overview of the language with an emphasis on practical problem-solving, using examples and exercises drawn from various aspects of bioinformatics work. The workshop is structured so that the parts of the language most useful for bioinformatics are introduced as early as possible, and that students can start writing plausibly-useful programs after the first few sessions. After completing the workshop, students should be in a position to (1) apply the skills they have learned to tackling problems in their own research and (2) continue their Python education in a self-directed way. The instructor of the workshop is the Founder of Python for Biologists, Dr. Martin Jones. Format The workshop will take place over 5 days. Each day will consist of 2 half-day sessions, each consisting of a ~1 hour lecture followed by 2 hours of practical exercises. It is important that attendees attend each session as they will use examples and exercises that build on the materials from previous sessions. For more information and a detailed syllabus please see the following link: https://pythonforbiologists.com/introduction-to-python-for-biologists Who should attend This workshop is aimed at all researchers and technical workers with a background in biology who want to learn programming. The syllabus has been planned with complete beginners in mind. Requirements Attendees will require a level of biological and bioinformatics background so they can appreciate the examples and exercises (i.e. they should know what a protein accession number, BLAST report, and FASTA sequence is). Attendees will require the ability to us a text editor (e.g. nano, vim, or gedit). No previous programming knowledge is required. Attendees will use their own laptops during the workshop. Instructions for any software to be installed will be sent out prior to the course. If you are not sure if this course is suitable for you please do not hesitate to contact Dr Martin Jones (martin@pythonforbiologists.com) Please fill in the following form (https://forms.gle/mkjiASxS7sKBxeGo7) if you would like to register for the Introduction to Python for Biologists workshop. Applicants will be asked to pay a registration fee of £500. After the application deadline (14th of June) or when all places are fill applicants will be asked to pay for the workshop. Once your fee is paid your place on the course will be confirmed. 2019-08-12 09:00:00 UTC 2019-08-16 17:00:00 UTC Centre for Genomic Research, University of Liverpool (https://www.liverpool.ac.uk/genomic-research/) 126 Mount Pleasant, 126, Mount Pleasant, Liverpool, United Kingdom 126 Mount Pleasant, 126, Mount Pleasant Liverpool Merseyside United Kingdom L3 5SR University of Liverpool [] [] 15 workshops_and_courses [] pythonbioinformaticsprogrammingintrobeginner
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    16 September 2019 - 12 January 2020

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics-fdf6ec3e-b089-40ae-8065-c648abf3b378 # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course will be repeated twice a year. ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2019-09-16 09:00:00 UTC 2020-01-12 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • Nextflow 2019

    17 - 20 September 2019

    Barcelona, Spain

    Elixir node event
    Nextflow 2019 https://tess.elixir-europe.org/events/nextflow-2019 **Create. Deploy. Share.** Nextflow is a popular workflow management solution that allows scientists and engineers to create data-driven applications which can be effortlessly scaled across clusters and clouds. It simplifies the writing of complex distributed computational workflows in a portable and replicable manner. Nextflow allows the seamless parallelization and deployment of any existing application with minimal development and maintenance overhead, irrespective of the original programming language. Containerisation technologies and inbuilt executors for the most popular cluster systems (SLURM, PBS, UGE, LSF, etc) and cloud infrastructure (AWS Batch & Google Cloud Platform) ensures unrivalled deployment. The built-in support for code repositories provides code sharing for the collaborations that matter most and enable your applications to touch the world. But most of all, the active community of that has formed around Nextflow provides inspirational, best-in-class technical examples from global leaders in workflow deployment as well as lasting relationships in a growing community. __Nextflow Training - 17th and 18th September 2019__ The week kicks off with a two-day intensive workshop intended for Nextflow beginners and intermediate users. In these practical sessions, participants learn about Nextflow technology starting from basic through to advanced concepts, with the expectation they will acquire the proficiency to develop and deploy their own workflows. The workshop will be provided across 14 topics including processes, operators, executors, containers and best practices. A GitHub repository will be provided with all the necessary material and software as well as AWS cloud instances for running the deployments in the relevant practical sessions. The audience is expected to have at least some prior basic command line experience. __Nextflow Camp - 19th and 20th September 2019__ Nextflow Camp brings together the Nextflow community of developers and users to discuss the state of Nextflow technology, the latest developments and tackle the open questions in a collaborative manner. Each day is split between talks from Nextflow experts and tutorial breakout sessions where participants get a flavour for the possibilities for their own applications. We hope to see you in Barcelona in September! 2019-09-17 09:00:00 UTC 2019-09-20 18:00:00 UTC Paolo Di Tommaso PRBB Parc de Recerca Biomèdica de Barcelona, 88, Carrer del Doctor Aiguader, Barcelona, Spain PRBB Parc de Recerca Biomèdica de Barcelona, 88, Carrer del Doctor Aiguader Barcelona Barcelona Spain 08003 Centre for Genomic Regulation training@crg.eu AWS Bioinformaticians 50 meetings_and_conferencesworkshops_and_courses first_come_first_served NextflowWorkflowsContainersCloud ComputingHPC
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    4 November 2019 - 5 January 2020

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance-982e1f8d-d60b-48d9-aef7-6f83524194f2 # Overview * **Duration**: 3 weeks, 3 hours per week * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits) * **Start Date**: The course is run ‘live’ for 3 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### Course start dates This course is repeated twice a year. ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2019-11-04 09:00:00 UTC 2020-01-05 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    9 March - 10 May 2020

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance-562964f7-002f-4d58-8d54-da81b6d29cc8 # Overview * **Duration**: 3 weeks, 3 hours per week * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits) * **Start Date**: The course is run ‘live’ for 3 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### Course start dates This course is repeated twice a year. ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2020-03-09 09:00:00 UTC 2020-05-10 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    9 March - 12 July 2020

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance-9b6d1f32-b676-422b-93fe-ad935f02bf74 # Overview * **Duration**: 3 weeks, 3 hours per week * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits) * **Start Date**: The course is run ‘live’ for 3 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### Course start dates This course is repeated twice a year. ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2020-03-09 09:00:00 UTC 2020-07-12 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    20 April - 16 August 2020

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics-92c9e794-2186-4766-8435-3273e0756322 # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course will be repeated: Next start dates: * September 2019 (date TBC) ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2020-04-20 09:00:00 UTC 2020-08-16 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    20 April - 16 August 2020

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics-58453edc-686a-4baa-87e1-e8f5dbab3cb1 # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course will be repeated: Next start dates: * September 2019 (date TBC) ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2020-04-20 09:00:00 UTC 2020-08-16 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    20 April - 16 August 2020

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics-f8f943e2-2214-43f4-80a9-0215800cbed1 # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course will be repeated twice a year. ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2020-04-20 09:00:00 UTC 2020-08-16 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • WEBINAR SERIES: Using Containers in Bioinformatics

    15 - 17 June 2020

    Australia

    WEBINAR SERIES: Using Containers in Bioinformatics https://tess.elixir-europe.org/events/webinar-series-using-containers-in-bioinformatics Three-day online event in Australia 2020-06-15 02:00:00 UTC 2020-06-17 03:00:00 UTC Australian Biocommons; Pawsey Supercomputing Centre Australia, Australia Australia Australia Bioinformatics Australian Biocommons [] [] workshops_and_courses [] BioinformaticsContainersAustralia
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    31 August 2020 - 3 January 2021

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance-2aa0df3a-e74c-4f5c-acc3-8c2ee0847f71 # Overview * **Duration**: 3 weeks, 3 hours per week * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits) * **Start Date**: The course is run ‘live’ for 3 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### Course start dates This course is repeated twice a year. ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2020-08-31 09:00:00 UTC 2021-01-03 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Bacterial Genomes: From DNA to Protein Function Using Bioinformatics

    12 October 2020 - 7 February 2021

    Bacterial Genomes: From DNA to Protein Function Using Bioinformatics https://tess.elixir-europe.org/events/bacterial-genomes-from-dna-to-protein-function-using-bioinformatics-e18aa62a-65f6-478d-ad25-61b757305166 # Overview * **Duration**: 2 weeks, 5 hours per week * Free * Certificate of Achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (10 credits) * **Start Date**: The course is run ‘live’ for 2 weeks from the start date above. Once this period is over there will be no live monitoring of the forums, but you can still join and complete the course during the remaining period. ### Why join the course? Join us in our quest to discover what makes microbes dangerous. Use bioinformatics to probe genomes, to explore and represent DNA and protein sequences. Then, use databases to find protein sequences’ conserved domains and investigate their functions. ### Who is the course for? The course will be of interest to undergraduates, post-graduates, researchers, bioinformaticians, biomedical researchers, microbiologists, healthcare professionals and all those who are interested in learning about the underlying mechanisms of bacterial disease, DNA sequences and protein data, or how to use online analytical tools to probe genomes. The topics covered in this course are applicable to the genomes of all organisms. It is not essential to have previous knowledge or experience in bioinformatics. Scientific terminology is explained. The opportunity to use online computational tools in the context of bacterial genomes will also be of interest to teachers and their 16-18-year-old science and computing students. ### What do people say about this course? "_Clear introduction of the – often viewed as complex – field of bioinformatics_." Mqondisi Tshabalala, PhD student, Institute for Cellular and Molecular Medicine, University of Pretoria, South Africa "_Highlights of the course were the investigations with the databases - these reinforced the learning._" Dr. Alan McLintic, Anaesthesiologist, Faculty of Medicine and Health Scientists, University of Auckland, New Zealand # Programme and start dates ### Course start dates This course will be repeated twice a year. ### What topics will you cover? * Bioinformatics tools, DNA and protein sequences * Retrieving DNA and protein sequences from repositories * Databases for protein annotation * Inferring function from sequence ### What will you achieve? By the end of the course, you'll be able to... * assess DNA representations and protein sequences * perform searches in primary databases (repositories) and retrieve gene/protein data * interpret different repository submission formats * investigate biological databases for research * identify the putative function of proteins based on their conserved domains # Educators ## **Lead Educators** ### Dr Anna Protasio I am a researcher in parasitology and life sciences. I am passionate about bioinformatics and how we can use these tools to answer questions in biology. ### Martin Aslett I am the IT Manager for the Wellcome Genome Campus Advanced Courses and Scientific Conferences team. My interests lie in bioinformatics and its application to microbial genomics. ### Dr Christine Boinett I am a researcher in bacterial genetics and my interest is in understanding the development of resistance in bacterial pathogens using next generation sequencing techniques. ## **Educator** ### Matthew Dorman I am a graduate student at the Wellcome Sanger Institute, where I research the virulence and the molecular genetics of bacterial pathogens as part of the Infection Genomics programme. ## **Programme Lead Educator** ### Professor Nicholas Thomson Group Leader at the Wellcome Sanger Institute, interested in bacterial evolution and the spread of infectious disease; provides scientific oversight for this course. The course also features interviews with two distinguished experts: ### Dr Rob Finn Team Leader of EMBL-EBI Sequence Families Team ### Dr Claire Chewapreecha Sir Henry Wellcome Fellow and Lecturer, University of Cambridge, UK, and King Mongkut University of Technology, Thailand. # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CPD Approval 2020-10-12 09:00:00 UTC 2021-02-07 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesinformaticsHDRUK
  • Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance

    1 January - 31 December 2021

    Bacterial Genomes: Disease Outbreaks and Antimicrobial Resistance https://tess.elixir-europe.org/events/bacterial-genomes-disease-outbreaks-and-antimicrobial-resistance-b178602b-e29f-4ac7-afbf-5deafd52f8dd # Overview * **Duration**: There is no longer a live period for this course, and there will be no live monitoring of the forums, but you can still join and complete the course throughout 2021. * Free * Certificate of achievement available on satisfactory completion * **CPD Approval**: Royal College of Pathologists (9 credits), Royal College of Nursing (9 credits)** ** ### Why join the course? The increase in resistance of harmful bacteria to antibiotics is a major global threat to health. Here we explore bacterial genomes and the use of genome sequencing to identify and track these drug resistant bacteria. Join us to discover how genome research is helping scientists and healthcare professionals track disease outbreaks and prevent the rise of antibiotic resistant ‘superbugs’. ### Who is the course for? This course will be of interest to scientists, healthcare professionals, biomedical researchers and bioinformaticians. The course offers all learners an opportunity to learn about genomes, disease, and antimicrobial resistance. You require no previous knowledge of genome science to complete the course. ### What do people say about this course? "_I would definitely point students to this resource. Text, videos, and figures were all very well done._" Pablo Tsukayama, Assistant Professor of Microbiology "_A highlight of the course was the introduction to whole genome sequencing – new information for me._" Christine Laws, Medical Doctor “_Exchanging genetic information quickly throughout the world is clearly going to revolutionise the ability to combat disease._” Prue van der Hoorn, Artist # Programme and start dates ### What topics will you cover? * Diseases caused by bacteria * What bacterial genomes look like * Genome sequencing technology * Mechanisms of transmission and resistance * Genomic epidemiology – tracking the spread of bacterial pathogens * Antimicrobial resistance ### What will you achieve? By the end of the course, you'll be able to... * Explain why some bacteria are pathogenic * Explore the structure of bacterial genomes * Describe the uses of different genome sequencing technologies * Investigate how genome data are used to track the spread of bacterial disease * Discuss the role of genome sequencing in stopping the spread of antimicrobial resistance # Educators ## **Lead Educators** **[Dr Adam Reid][1]** I am a senior staff scientist at the Wellcome Sanger Institute near Cambridge in the United Kingdom. I'm interested in using genomics and bioinformatics to better understand infectious diseases. **[Dr Josie Bryant][2]** I am a Henry Wellcome Postdoctoral Fellow in the University of Cambridge, Department of Medicine. I am working on bacterial genomics and evolution with a focus on within-patient microbial diversity ### Dr Francesca Short I am a scientist at the Wellcome Sanger Institute. I am interested in using functional genomics techniques to understand infections caused by the bacterium _Klebsiella pneumoniae_. ## **Programme Lead Educator** **[Professor Nicholas Thomson][3]** I am a Group Leader at the Wellcome Sanger Institute. I provide scientific oversight for this course. I am interested in bacterial evolution and the spread of infectious disease. ### The course also features interviews with distinguished scientists, including: * **[Mathew Beale][4]** - Wellcome Sanger Institute * **[Daryl Domman][5]** - Wellcome Sanger Institute * **[Gal Horesh][6]** - Wellcome Sanger Institute * **[Catherine Ludden][7]** - London School of Hygiene and Tropical Medicine * **[Tapoka Mkandawire][8]** - Wellcome Sanger Institute * **[Julian Parkhill][9]** - Wellcome Sanger Institute * **Lindsay Pike** - Wellcome Sanger Institute * **[Michael Quail][10]** - Wellcome Sanger Institute * **[Susannah J. Salter][11]** - Wellcome Sanger Institute * **[Estee Torok][12]** - Addenbrooke’s Hospital and University of Cambridge [1]: http://www.sanger.ac.uk/people/directory/reid-adam-james [2]: https://www.infectiousdisease.cam.ac.uk/directory/josie-bryant [3]: http://www.sanger.ac.uk/people/directory/thomson-nicholas-robert [4]: http://www.sanger.ac.uk/people/directory/beale-mathew [5]: http://www.sanger.ac.uk/people/directory/domman-daryl [6]: http://www.sanger.ac.uk/people/directory/horesh-gal [7]: https://www.lshtm.ac.uk/aboutus/people/ludden.catherine [8]: http://www.sanger.ac.uk/people/directory/mkandawire-tapoka-t [9]: http://www.sanger.ac.uk/people/directory/parkhill-julian [10]: http://www.sanger.ac.uk/people/directory/quail-michael-andrew [11]: http://www.sanger.ac.uk/people/directory/salter-susannah-j [12]: https://www.infectiousdisease.cam.ac.uk/directory/et317@medschl.cam.ac.uk # What's Included Wellcome Genome Campus Advanced Courses and Scientific Conferences are offering everyone who joins this course a free digital upgrade, so that you can experience the full benefits of studying online for free. This means that you get: * Unlimited access to this course * Includes any articles, videos, peer reviews and quizzes * Tests to validate your learning * A PDF Certificate of Achievement to prove your success when you’re eligible # CDP Approval 2021-01-01 09:00:00 UTC 2021-12-31 23:59:59 UTC Wellcome Genome Campus - Advanced Courses [] advancedcourses@wellcomegenomecampus.org [] [] workshops_and_courses [] bacterialgenomesAMRHDRUK
  • Using containers in bioinformatics

    25 - 26 March 2021

    Using containers in bioinformatics https://tess.elixir-europe.org/events/using-containers-in-bioinformatics Are you wondering how your research could benefit from workflow containerisation? Containers enable you to package up an application and its dependencies and encourage reproducibility, portability and shareability of computational workflows. This workshop explores the merits, advantages and limitations of applying containers in bioinformatics. During the workshop you will: - learn and practice the basics of building, deploying and running applications in containers - explore real use cases related to biology - discuss tips and best practices, and have your questions answered. This workshop will be delivered online through a combination of presentations, demonstrations and hands-on interactive exercises supported by containers experts. On day 1 you will learn new skills through undertaking practical exercises and on day 2 you can bring your own pipeline to get advice and tips in a small group setting. **Learning outcomes** By the end of the workshop you should be able to: - Identify when you would benefit from using containers in your workflow - Download container images and run commands from inside a container using Singularity - Identify popular image registries - Discuss the pros & cons of building with Singularity vs Docker - Describe the basic syntax of a Dockerfile - Build and share an image with Docker - Convert a Docker image into the Singularity format **Lead trainer:** TBC **Date/time:** 12:30pm - 4:00pm AEDT/ 11:30am - 3:00pm AEST/ 12:00pm - 3:30pm ACDT / 9:30am - 1:00pm AWST Thursday 25 - Friday 26 March 2021 **Who the workshop is for** Basic familiarity with UNIX shell concepts and command line interactions are required. Participants do not need any previous experience with containers. This workshop is open to staff and students from Australian universities and research institutes. **How to apply** The workshop is free but participation is subject to application with selection. Please note that applications that do not nominate an Australian institute and do not provide an appropriate institutional email address will not be able to take part. Applications will be reviewed by the organising committee and all applicants will be informed of the status of their application (successful, waiting list, unsuccessful) by Friday 19 March 2021. Participants will be provided with a Zoom meeting link closer to the date. Please complete the application form if you are interested in attending this workshop. **Applications close 5pm AEDT Monday 15 March 2021.** [Apply here](https://biocommons-containers-2021.eventbrite.com.au/) The workshop is presented by the [Australian BioCommons](https://www.biocommons.org.au/) and [Pawsey Supercomputing Centre](https://pawsey.org.au/) with the assistance of a network of facilitators from the national [Bioinformatics Training Cooperative](https://www.biocommons.org.au/training-cooperative). This event is part of a series of [bioinformatics training events](https://www.biocommons.org.au/events). If you'd like to hear when registrations open for other events, please [subscribe](https://www.biocommons.org.au/subscribe) to Australian BioCommons. 2021-03-25 12:30:00 UTC 2021-03-26 16:00:00 UTC Australian BioCommons Australia, Australia Australia Australia Australian Biocommons Melissa Burke: melissa@biocommons.org.au [] [] 30 workshops_and_courses registration_of_interest WorkflowsContainers

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